UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This report describes that P. falciparum produces a neuraminidase like activity on invasion into erythrocytes in culture on the basis of biochemical and immunological investigations. This activity in turn modifies the surface glycoprotein receptors of red cells and may be of help in the inhibition of further invasion by merozoites. The characterization of this enzyme activity may help elucidate the mechanism of cerebral malaria.
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PMID:Plasmodium falciparum invades human red cells via a parasite produced glycosidase. 128 53

The human malaria parasite Plasmodium falciparum demonstrates variability in its dependence upon erythrocyte sialic acid residues for invasion. Some lines of P. falciparum invade neuraminidase-treated or glycophorin-deficient red blood cells poorly, or not at all, while other lines invade such cells at substantial rates. To explore the molecular basis of non-sialic acid dependent invasion, we selected parasite lines from a clone (Dd2) that initially exhibited low invasion of neuraminidase-treated erythrocytes. After maintaining Dd2 for several cycles in neuraminidase-treated erythrocytes, parasite lines were recovered that invaded both untreated and neuraminidase-treated erythrocytes at equivalently high rates (Dd2/NM). The change in phenotype was maintained after removal of selection pressure. Four subclones of Dd2 were isolated and each readily converted from sialic acid dependence to non-sialic acid dependence during continuous propagation in neuraminidase-treated erythrocytes. The neuraminidase-selected lines and the Dd2 clone demonstrated identical restriction fragment length polymorphism markers indicating that the Dd2 clone was not contaminated during the selection process. Parasite proteins that bound to neuraminidase-treated and untreated erythrocytes were indistinguishable among the parent Dd2 clone and the neuraminidase-selected lines. The ability of the Dd2 parasite to change its invasion requirements for erythrocyte sialic acid suggests a switch mechanism permitting invasion by alternative pathways.
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PMID:Evidence for a switching mechanism in the invasion of erythrocytes by Plasmodium falciparum. 220 Aug 6

Plasmodium falciparum malaria parasites with different capabilities of invading sialic acid-deficient erythrocytes were identified. Thai-2 parasites cultured in Tn erythrocytes invaded neuraminidase-treated and Tn erythrocytes twice as efficiently as Thai-2 parasites cultured in normal erythrocytes and seven to ten times more efficiently than a cloned line of Camp parasites cultured in normal erythrocytes. All three parasite lines required sialic acid for optimal invasion, but Thai-2 parasites cultured in Tn erythrocytes invaded neuraminidase-treated erythrocytes with 45% efficiency whereas Camp parasites invaded neuraminidase-treated erythrocytes with less than 10% efficiency. P falciparum malaria parasites probably possess two receptors: one that binds to a sialic acid-dependent ligand and another that binds to a sialic acid-independent ligand. Parasites may differ in the quantity or affinity of their receptors for the sialic acid-independent ligand.
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PMID:Invasion of erythrocytes by Plasmodium falciparum malaria parasites: evidence for receptor heterogeneity and two receptors. 351 59

A novel antigen of asexual blood stages of the rodent malaria parasite Plasmodium chabaudi, was detected by means of a modified indirect immunofluorescence assay (IFA), using glutaraldehyde fixed and air dried monolayers of P. chabaudi infected erythrocytes. P. chabaudi hyperimmune sera gave a distinct surface immunofluorescence of erythrocytes infected with early stages of the parasite. Fixation and drying of the erythrocytes was necessary for the antigenic activity to be exposed. The antigens were species specific as P. chabaudi hyperimmune serum only stained P. chabaudi but not P. yoelii or P. falciparum infected erythrocytes. The antigenic activity involved in the IFA was resistant to trypsin, phospholipases and neuraminidase but not to pronase, suggesting that the antigens were polypeptides. The surface immunofluorescence was inhibited by an extract of parasitized erythrocytes, but not by similar extracts of normal erythrocytes. The inhibitory antigens were soluble and heat stable (100 degrees C, 5 min). For identification and characterization of the antigens, antibodies were isolated by acid elution from monolayers of infected erythrocytes and monoclonal antibodies were produced. Probing in immunoblotting of extracts of parasitized erythrocytes separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis with the eluted antibodies, showed that they reacted consistently with a polypeptide of Mr 105 000 (Pch105). The Pch105 antigen shares many characteristics with Pf155, a P. falciparum antigen considered as a candidate for a vaccine against that parasite.
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PMID:Identification of a Plasmodium chabaudi antigen present in the membrane of ring stage infected erythrocytes. 352 47

Invasion of erythrocytes by malaria parasites is known to be blocked by proteolytic digestion of merozoite receptors allegedly present in red cell membranes. This information was used in the present work to develop a simple and convenient assay for parasite invasion into red blood cells and for evaluating the role played by red cell membrane components in this process. Synchronized in vitro cultures of Plasmodium falciparum containing only ring stages were subjected to either trypsin or pronase digestion, a treatment that neither affected ring development into schizonts nor mature merozoite release. Cells from this culture were not invaded by the released merozoites. However, upon addition of untreated human red blood cells, marked invasion was observed, either microscopically or as [3H]isoleucine incorporation. The new assay circumvents the need for separating schizonts from uninfected cells and provides a convenient means for assessing how chemical and biochemical manipulation of red blood cells affects their invasiveness by parasites. Using this assay, we verified that sheep and rabbit erythrocytes were resistant to invasion, as were human erythrocytes which had been treated with trypsin, pronase or neuraminidase. Chymotrypsin digestion of human erythrocytes was without effect on invasion. Human erythrocytes which were chemically modified with the impermeant amino reactive reagent H2DIDS, or with the crosslinker of spectrin, TCEA, were found to resist invasion. The results underscore the involvement of surface membrane components as well as of elements of the cytoskeleton in the process of parasite invasion into erythrocytes.
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PMID:An assay of malaria parasite invasion into human erythrocytes. The effects of chemical and enzymatic modification of erythrocyte membrane components. 633 31

Monolayers of human erythrocytes (E) infected with Plasmodium falciparum were briefly fixed with 1% glutaraldehyde and air dried. They were then exposed to sera from patients with P. falciparum malaria or from donors immune to this parasite and tested in an indirect immunofluorescence assay (IFA). Parasites in infected E were made visible by counterstaining with ethidium bromide. Immunofluorescence (IF) was restricted to the surface of infected E. No antibody binding was detected unless the E were dried, suggesting that the relevant antigens were not available on the outer layers of the E surface. Staining over large parts of the E surface was seen already when the merozoite penetrated noninfected cells and was strong in E containing early stages of the parasite (rings, trophozoites). It was weak or absent from E containing schizonts. Antibodies in sera from different parts of Africa, Colombia, or Sweden reacted similarly with E infected with a Tanzanian P. falciparum strain kept in culture for many years and with parasitized E freshly drawn from African, Swedish, or Colombian patients. All sera from residents of a holoendemic area (Liberia) were IFA positive. In contrast, some sera from Colombian or Swedish patients with primary infection gave negative results. The results of the IFA and of an enzyme-linked immunosorbent assay in which fixed and dried E were the targets were well-correlated, suggesting that the same antibodies were detected by these assays. The antigens involved in the IFA were susceptible to pronase but not to trypsin or neuraminidase. E surface IF was inhibited by lysates of infected E, merozoite extracts, or soluble antigens present in P. falciparum culture supernatants but not by lysates of normal E or ghost extracts. The inhibitory antigens were heat stable (100 degrees C, 5 min). Sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by immunoblotting of either antigen-enriched preparations from culture supernatants or merozoite extracts showed that antibodies eluted from monolayers of infected E reacted consistently with a predominant polypeptide of Mr 155,000 and two to four minor polypeptides of lower molecular weights. Metabolic labeling of the parasites with 75Se-methionine indicated that these antigens were parasite derived. We conclude that the antigens involved in these reactions are released from bursting schizonts or merozoites and are deposited in the E membrane in the course of invasion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Antibodies in malarial sera to parasite antigens in the membrane of erythrocytes infected with early asexual stages of Plasmodium falciparum. 637 12

An increased frequency of high titers of antibodies against A, B, ORh+ trypsinized, and ORh+ neuraminidase-treated human red blood cells was observed in the sera of Africans living in a malaria endemic area, and Europeans with primary malaria attacks. In the latter group, titers of agglutinins against neuraminidase treated RBC were increased in 84% of individuals and were of the IgM class. Inhibition experiments with beta-D-galactose and lactose showed that this agglutinin was directed to the T antigen of human RBC. Its possible implication in malaria related anemia is discussed.
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PMID:[Demonstration of an abnormal increase of anti-T hemagglutinin titers in malaria infected patients]. 640 66

We have developed a new, specific, and highly sensitive enzyme-linked immunosorbent assay (ELISA) which quantitates activation of the alternative pathway in human serum, plasma, or on the surface of activators. The ELISA detects the third component of complement (C3b), proteolytic fragment of complement Factor B (Bb), and properdin (P) complex or its derivative product, C3b,P. In the method, activator-plasma mixtures, plasma containing an activated alternative pathway, or other samples are added to the wells of microtitration plates precoated with antibody to P. C3b, Bb,P or C3b,P complexes which become bound are quantitated by subsequently added, enzyme-labeled, anti-C3. The resulting hydrolysis of the chromogenic substrate is expressed as nanograms of C3b by reference to a C3 standard curve. In addition to absolute specificity for activation of the pathway because of the nature of the complex detected by the assay, the ELISA is highly sensitive and able to reproducibly detect 10-20 ng/ml of C3b,P complexes in serum. This value corresponds to 0.0015% of the C3 in serum. In a series of studies to validate the parameters of the ELISA, reactivity was found to be dependent on the presence of alternative pathway proteins, the functional integrity of the pathway, and on the presence of magnesium. Sheep erythrocytes were converted to activators by treatment with neuraminidase. By using a variety of activators, the kinetics of activation and the numbers of bound C3b molecules quantitated by the ELISA were very similar to those measured by C3b deposition. The ELISA also detected identical activation kinetics when MgEGTA-serum and a mixture of the purified alternative pathway proteins were used as sources of the pathway. ELISA reaction kinetics also correlated with the restriction index, a measure of alternative pathway-activating ability. These studies cumulatively validate the ELISA as a direct and quantitative assay for alternative pathway activation. The sensitivity of the ELISA has permitted its use to detect direct alternative pathway activation by several viruses. The ELISA has also shown that certain classical pathway activators trigger the amplification loop of the alternative pathway while others do not. In addition, stable ELISA reactive complexes appeared in the supernatant of mixtures of serum with certain, but not other activators. The ability of the ELISA to detect activation which has already occurred and the stability of the reactive complexes permits studies of clinical sera. Normal human sera (20) contained low levels (5-20 ng/ml) of ELISA-reactive complexes. A proportion of sera from individuals with the adult respiratory distress syndrome (9-10), typhoid fever (8-10), malaria (3-5), gram-negative sepsis (9 of 47), acute trauma and shock (6 f 25), and systemic lupus erythematosus (3 of 29) showed elevated levels of complexes reactive in the alternative pathway ELISA. In contrast, nine sera from patients with circulating C3 nephritic factor were not reactive in the ELISA.
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PMID:Development and application of an enzyme-linked immunosorbent assay for the quantitation of alternative complement pathway activation in human serum. 641 67

The surface proteins and glycoproteins of red cells from Plasmodium berghei-infected blood have been radio-isotope labelled and compared with those of normal mouse erythrocytes using the following protein labelling probes: lactoperoxidase-catalysed radio-iodination of tyrosyl residues, periodate oxidation and NaB3H4 reduction of sialic acid and oxidation of galactosyl/N-acetylgalactosaminyl residues by galactose oxidase with subsequent NaB3H4 reduction. During P. berghei infection, new tyrosyl-labelled proteins with apparent molecular weights (Mr) of 60 000, 54 000, 40 000 and 27 500 appeared on the surface of most, if not all, red cells in the blood. Purified multinucleate cells (mostly reticulocytes) differed only in that they also had a surface protein with Mr of 83 000. However, this molecule is thought to be specific to mouse reticulocytes rather than derived from parasites. In contrast to the relatively minor changes detected with radio-iodination, striking changes in glycoprotein radio-isotope labelling resulted from infection. All of the red cells in infected blood of greater than 20% parasitaemia lost their periodate-sensitive glycoprotein sialic acid. With some samples there was little change in glycoprotein labelling by the galactose oxidase method, provided neuraminidase was also added. Modification of the exocyclic hydroxyls of sialic acid is postulated to account for this. Other blood samples exhibited a dramatic loss of galactose oxidase-dependent labelling. It is suggested that these observations may relate to the excessive red cell destruction of uninfected as well as infminidase was also added. Modification of the exocyclic hydroxyls of sialic acid is postulated to account for this. Other blood samples exhibited a dramatic loss of galactose oxidase-dependent labelling. It is suggested that these observations may relate to the excessive red cell destruction of uninfected as well as infminidase was also added. Modification of the exocyclic hydroxyls of sialic acid is postulated to account for this. Other blood samples exhibited a dramatic loss of galactose oxidase-dependent labelling. It is suggested that these observations may relate to the excessive red cell destruction of uninfected as well as infected cells which has been inferred in many haemosporidial infections, including malaria.
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PMID:Characterization of surface proteins and glycoproteins on red blood cells from mice infected with haemosporidia: Plasmodium berghei infections of BALB/c mice. 700

The prevalence of antibodies against (i) human red blood cells (RBC) of A and B groups, (ii) trypsinized O Rh+ RBC and (iii) neuraminidase treated O Rh+ RBC were investigated both in sera of Africans from a malaria endemic area of Upper Volta and in sera of Europeans with acute malaria from a Paris hospital. An increased frequency of high titres of haemagglutinins was observed against A and B as well as O Rh+ trypsinized human RBC, thus confirming previously published results. In addition, agglutination of neuraminidase treated RBC showed that the titres were increased in about 40% of Africans studied and in about 80% of patients with acute malaria. Using agglutination with a specific anti-T lectin and inhibition with two ligands, it was found that sera of malarious patients contain high titres of antibodies directed against the T antigen of neuraminidase treated RBC. The mechanisms of appearance of high titres of autohaemagglutinins in malaria and their possible interference in the anaemia associated with this disease are discussed.
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PMID:High titres of anti-T antibodies and other haemagglutinins in human malaria. 717 12

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